比如人,人能同时在两个地方,处于一种叠加的状态,这种状态,潘建伟将它解释为量子叠加态。
For example, people can at the same time in two places, in a superposition of the state, this state, Pan Jianwei will be interpreted as quantum superposition state.
在我们的案例中,我们将宏观光束置于量子叠加态,这种状态极脆弱易被破坏,而后将光束从一处传送至另一处。
So in our case what we've done is take a macroscopic beam of light and put it into a quantum superposition, which is extremely fragile, and teleported that from one place to another.
叠加态正是像量子计算机这样的设备的基础。
Superposition is exactly what underlies the power of things like quantum computers.
量子世界的一个小小的令人惊奇的是一种被称作叠加态的状态。在这种状态下,一个粒子可以同时占据着两种状态。
One of the marvelous little wrinkles of the quantum world is a condition known as superposition, in which a particle can occupy two states at the same time.
据说,薛定谔构造这个实验是想嘲讽量子物理的新兴理论,但从那以后,物理学家们发现了许多量子世界的叠加态案例。
Schrodinger's is said to have devised the experiment to ridicule the emerging theories of quantum physics; but since then physicists have found many examples of superposition in the quantum world.
物理学家们已经成功使光量子、电子和原子,甚至整个分子达到叠加态并进行相关测量。
Physicists have already put photons, electrons, atoms and even entire molecules into such a state and measured the outcome.
本文讨论了这种位移叠加态的量子统计性质及其与位移算符的关系。
We discuss the quantum statistical properties of these states and relate these properties to the displacement operator.
讨论了量子力学里态叠加原理的物理含义,并评论了国内外流行的几种教材中的一些不同讲法。
The physical meaning of the superposition principle in quantum mechanics is discussed. Various statements of this principle in a few textbooks are commented.
文章作者解释了如何通过量子隧穿实现宏观量子相干(即薛定谔猫态的相干叠加)和量子态位相干涉。
We explain how to realize macroscopic quantum coherence, namely the superposition of Schrdinger cat states and quantum phase interference by means of quantum tunneling.
提出用单个量子位的叠加态进行量子编码。
The quantum encoding is put forward by using superposition state of single qubit.
系统处于这两个宏观量子态的相干叠加态,它们之间由于相干隧穿导致能级的劈裂。
The system is in the state of the superposition of the two macroscopic quantum states. Thecoherent tunnelling between them leads to the energy splitting.
在实现信息处理的过程中,量子态叠加原理、量子纠缠和量子退相干等基本原理和基本概念应当充分考虑。
Some fundamental principles, such as the principle of quantum state superposition, quantum entangled state and quantum decoherence etc.
介绍了量子态叠加原理和量子不可克隆定理。
Tthe principle of quantum superposition and quantum non-cloning theorem have been introduced.
研究了叠加压缩相干态的量子统计性质,给出了压缩和反聚束效应与叠加系数之间的关系。
The results showed that the coherent superposition state brings squeezing effect, bunching effect and super-poisson distribution.
结果显示叠加态时的概率密度随着电子-声子耦合强度的增加而增大,随着量子点受限长度的减小而增大。
The results indicate that the electron probability density increases with increasing the electron-LO phonon strong coupling and decreasing the confinement length.
结果显示叠加态时的概率密度随着电子-声子耦合强度的增加而增大,随着量子点受限长度的减小而增大。
The results indicate that the electron probability density increases with increasing the electron-LO phonon strong coupling and decreasing the confinement length.
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